Cheemeng Tan
Cited by
Cited by
Emergent bistability by a growth-modulating positive feedback circuit
C Tan, P Marguet, L You
Nature chemical biology 5 (11), 842-848, 2009
Molecular crowding shapes gene expression in synthetic cellular nanosystems
C Tan, S Saurabh, MP Bruchez, R Schwartz, P LeDuc
Nature nanotechnology 8 (8), 602-608, 2013
Modeling and simulation of biological systems with stochasticity
TC Meng, S Somani, P Dhar
silico biology 4 (3), 293-309, 2004
Image segmentation and dynamic lineage analysis in single‐cell fluorescence microscopy
Q Wang, J Niemi, CM Tan, L You, M West
Cytometry Part A: The Journal of the International Society for Advancement …, 2010
Origin of bistability underlying mammalian cell cycle entry
G Yao, C Tan, M West, JR Nevins, L You
Molecular systems biology 7 (1), 485, 2011
The inoculum effect and band‐pass bacterial response to periodic antibiotic treatment
C Tan, R Phillip Smith, JK Srimani, KA Riccione, S Prasada, M Kuehn, ...
Molecular systems biology 8 (1), 617, 2012
A biosensing soft robot: Autonomous parsing of chemical signals through integrated organic and inorganic interfaces
KB Justus, T Hellebrekers, DD Lewis, A Wood, C Ingham, C Majidi, ...
Science Robotics 4 (31), eaax0765, 2019
Biology by design: reduction and synthesis of cellular components and behaviour
P Marguet, F Balagadde, C Tan, L You
Journal of the Royal Society Interface 4 (15), 607-623, 2007
Cellware—a multi-algorithmic software for computational systems biology
P Dhar, TC Meng, S Somani, L Ye, A Sairam, M Chitre, Z Hao, ...
Bioinformatics 20 (8), 1319-1321, 2004
Programmed Allee effect in bacteria causes a tradeoff between population spread and survival
R Smith, C Tan, JK Srimani, A Pai, KA Riccione, H Song, L You
Proceedings of the National Academy of Sciences 111 (5), 1969-1974, 2014
Synthetic microbial consortia enable rapid assembly of pure translation machinery
F Villarreal, LE Contreras-Llano, M Chavez, Y Ding, J Fan, T Pan, C Tan
Nature Chemical Biology 14 (1), 29-35, 2018
Minimizing context dependency of gene networks using artificial cells
Y Ding, LE Contreras-Llano, E Morris, M Mao, C Tan
ACS applied materials & interfaces 10 (36), 30137-30146, 2018
High-throughput screening of biomolecules using cell-free gene expression systems
LE Contreras-Llano, C Tan
Synthetic Biology 3 (1), ysy012, 2018
Synthetic biology: A bridge between artificial and natural cells
Y Ding, F Wu, C Tan
Life 4 (4), 1092-1116, 2014
Grid Cellware: the first grid-enabled tool for modelling and simulating cellular processes
PK Dhar, TC Meng, S Somani, L Ye, K Sakharkar, A Krishnan, ...
Bioinformatics 21 (7), 1284-1287, 2005
A synthetic biology challenge: making cells compute
C Tan, H Song, J Niemi, L You
Molecular BioSystems 3 (5), 343-353, 2007
Hybrid simulations of stochastic reaction-diffusion processes for modeling intracellular signaling pathways
KH Chiam, CM Tan, V Bhargava, G Rajagopal
Physical Review E 74 (5), 051910, 2006
Noise-limited frequency signal transmission in gene circuits
C Tan, F Reza, L You
Biophysical journal 93 (11), 3753-3761, 2007
Dynamic biomaterials: toward engineering autonomous feedback
E Morris, M Chavez, C Tan
Current opinion in biotechnology 39, 97-104, 2016
Programming microbial population dynamics by engineered cell–cell communication
H Song, S Payne, C Tan, L You
Biotechnology journal 6 (7), 837-849, 2011
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